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Citation |
Keey RB, Smith CH. Reliab. Eng. 1985; 10(2): 105-127. |
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Copyright |
(Copyright © 1985, Elsevier Publishing) |
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DOI |
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PMID |
unavailable |
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Abstract |
Hazard analysis is based on computing the incidence of undesired outcomes by considering the structure of fault propagation from lesser mishaps. These events are not single-valued, but are described by random-variable distributions. The authors consider how the input-variable distributions combine into higher-order events, with particular reference to the changes in variable range and uncertainty, as indicated by the coefficient of variation. By evaluating the combination of binary, normally-distributed inputs, it is shown that the coefficient of variation of the output is lower than the larger coefficient of the inputs in the case of an OR-gate, but that the coefficient for the output from an AND-gate is always higher than the input coefficients. A numerical method for combining inputs of any kind of distribution is described, and the method is applied to an example of the reliability of a water-deluge system. The propagation of uncertainty is discussed, as well as the effect of the proof-testing period on the coefficient of variation of the system. |